한국군사과학기술학회지 (Journal of the Korea Institute of Military Science and Technology)

  • 제27권1호
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  • Pages.70-79
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  • 2024
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  • 1598-9127(pISSN)
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  • 2636-0640(eISSN)
한국군사과학기술학회 (The Korea Institute of Military Science and Technology)
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무인항공기 체계의 통합검증을 위한 무인항공기 체계통합실험실(UAV SIL) 개발

Development of Unmanned Aerial Vehicle System Integration Laboratory(UAV SIL) for the Integrated Verification

  • 심재익 (국방과학연구소 항공기술연구원 제1항공체계단) ;
  • 우희채 (국방과학연구소 항공기술연구원 제1항공체계단) ;
  • 김상진 (국방과학연구소 항공기술연구원 제1항공체계단) ;
  • 정상준 (국방과학연구소 항공기술연구원 제1항공체계단)
  • Jae Ick Shim (The 1st Aero System PMO, Aerospace Technology Research Institute, Agency for Defense Development) ;
  • Hee Chae Woo (The 1st Aero System PMO, Aerospace Technology Research Institute, Agency for Defense Development) ;
  • Sang Jin Kim (The 1st Aero System PMO, Aerospace Technology Research Institute, Agency for Defense Development) ;
  • Sang Jun Jung (The 1st Aero System PMO, Aerospace Technology Research Institute, Agency for Defense Development)
  • 투고 : 2023.10.07
  • 심사 : 2024.01.04
  • 발행 : 2024.02.05
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초록

This paper describes the results of the development of the the unmanned aerial vehicle system integration laboratory(UAV SIL) for the integrated verification. This UAV SIL is designed to test the robustness of the UAV system including the operational logics and the flight control system behaviors under many abnormal and emergency conditions such as data-link losses, airborne subsystem failures, engine shut down conditions, and ground control station faults. This paper presents how to build the UAV SIL and how to verify the in-development UAV system through the UAV SIL.

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참고문헌

  1. R. C. Kircher, Jr., "777 Systems Integration Lab(SIL) Architecture Overview," AIAA Flight Simulation Technologies Conference, Scottsdale, AZ., pp. 67-73, Aug. 1994. 
  2. W. Z. Kenneth, and Geoffrey Brooks, aand Bruce Owens, "Maximizing Operational Effectiveness and Utility of thr Mobile Infrared Scene Projector During System Integration Laboratory(SIL) Testing," Proc. SPIE 4027, Technolosfor Synthetic Environments: Hardware-in-the-Loop Testing V, 12 July 2000. 
  3. Venu Siddapureddy, and Nathan Fountain, and David Sanders, and Stacy Budzik, "System Integration Laboratory(SIL) is a Ket Tool for Estabilishing and Testing Systems Engineering Discipline," 2011 NDIA Ground Vehicle Systems Engineering and Technology Symposium, Dearborn, Michigan, pp. 1-4, Aug. 2011. 
  4. J. I. Shim, and J. W. Choi, and Y. T. Kim, and D. W. Yoo, and K. B. Yang, and H. S. Ha, and S. J. Kim, and S. Y. Lee, and S. J. Jung, "Avionics Architecture Design for Military Unmanned Aerial Vehicles," Jounnal of the Korea Institute of Military Science and Technology, Vol. 25, No. 6, pp. 628-636, 2022.  https://doi.org/10.9766/KIMST.2022.25.6.628
  5. J. G. Lim, and J. K. Byun, and G. B. Hur, "Real-time computer simulation environment development for UAV HILS," APISAT2012, Vol. 2012, p. 162. 
  6. J. I. Shim, and B. W. Choi, and S. S. Park, and D. W. Yoo, and S. M. Cho, and J. K. Byun, and J. G. Lim, and J. H. Lee, "A system level HILS platform design for the integrated verification of the operational logic and the flight performance of UAS," Proceeding of the Society for Aerospace System Engineering Spring Conference, pp. 79-84, 2015. 
  7. J. K. Byun, and G. B. Hur, and K. H. Lee, and J. Y. Suk, "A Study on UAV Flight Control System HILS Test Environment," Journal of Korean for Aeronautical and Space Sciences, Vol. 44, No. 4, pp. 316-323, 2016. https://doi.org/10.5139/JKSAS.2016.44.4.316